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首页> 美国卫生研究院文献>International Journal of Molecular Sciences >Identification of Alternative Mitochondrial Electron Transport Pathway Components in Chickpea Indicates a Differential Response to Salinity Stress between Cultivars
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Identification of Alternative Mitochondrial Electron Transport Pathway Components in Chickpea Indicates a Differential Response to Salinity Stress between Cultivars

机译:鹰嘴豆中替代线粒体电子传输途径成分的鉴定表明不同品种对盐分胁迫的差异响应

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All plants contain an alternative electron transport pathway (AP) in their mitochondria, consisting of the alternative oxidase (AOX) and type 2 NAD(P)H dehydrogenase (ND) families, that are thought to play a role in controlling oxidative stress responses at the cellular level. These alternative electron transport components have been extensively studied in plants like Arabidopsis and stress inducible isoforms identified, but we know very little about them in the important crop plant chickpea. Here we identify AP components in chickpea ( ) and explore their response to stress at the transcript level. Based on sequence similarity with the functionally characterized proteins of , five putative internal (matrix)-facing NAD(P)H dehydrogenases ( and ) and four putative external (inter-membrane space)-facing NAD(P)H dehydrogenases ( ) were identified in chickpea. The corresponding activities were demonstrated for the first time in purified mitochondria of chickpea leaves and roots. Oxidation of matrix NADH generated from malate or glycine in the presence of the Complex I inhibitor rotenone was high compared to other plant species, as was oxidation of exogenous NAD(P)H. In leaf mitochondria, external NADH oxidation was stimulated by exogenous calcium and external NADPH oxidation was essentially calcium dependent. However, in roots these activities were low and largely calcium independent. A salinity experiment with six chickpea cultivars was used to identify salt-responsive alternative oxidase and NAD(P)H dehydrogenase gene transcripts in leaves from a three-point time series. An analysis of the Na:K ratio and Na content separated these cultivars into high and low Na accumulators. In the high Na accumulators, there was a significant up-regulation of , , , and in leaf tissue under long term stress, suggesting the formation of a stress-modified form of the mitochondrial electron transport chain (mETC) in leaves of these cultivars. In particular, stress-induced expression of the gene showed a striking positive correlation with that of across all genotypes and time points. The coordinated salinity-induced up-regulation of and suggests that the mitochondrial alternative pathway of respiration is an important facet of the stress response in chickpea, in high Na accumulators in particular, despite high capacities for both of these activities in leaf mitochondria of non-stressed chickpeas.
机译:所有植物的线粒体均包含替代电子传输途径(AP),该途径由替代氧化酶(AOX)和2型NAD(P)H脱氢酶(ND)家族组成,它们在控制氧化应激反应中起着重要作用。细胞水平。这些替代的电子传输成分已在拟南芥等植物中进行了广泛研究,并鉴定出胁迫诱导型亚型,但在重要的农作物鹰嘴豆中我们对它们的了解却很少。在这里,我们确定鹰嘴豆()中的AP成分,并在转录本水平上探讨它们对胁迫的反应。根据与功能蛋白的序列相似性,鉴定了五个面向内部(基质)的NAD(P)H脱氢酶(和)和四个面向外部(膜间空间)的NAD(P)H脱氢酶()。在鹰嘴豆。在鹰嘴豆叶和根的纯化线粒体中首次证明了相应的活性。与其他植物相比,在配合物I抑制剂鱼藤酮存在下,苹果酸或甘氨酸生成的基质NADH的氧化程度较高,外源NAD(P)H的氧化程度也较高。在叶线粒体中,外源钙刺激外部NADH氧化,而外部NADPH氧化基本上是钙依赖性的。然而,从根本上讲,这些活性很低,并且很大程度上与钙无关。用六个鹰嘴豆品种的盐度实验从三个时间点序列中鉴定叶片中的盐响应性替代氧化酶和NAD(P)H脱氢酶基因转录本。通过Na∶K比和Na含量的分析,将这些品种分成高和低Na积累器。在高Na累积量中,在长期胁迫下,叶片组织中的,和显着上调,表明这些品种叶片中线粒体电子转运链(mETC)的应力修饰形式形成。特别是,应激诱导的基因表达与所有基因型和时间点的表达都具有惊人的正相关性。盐度的协同上调提示,线粒体呼吸的替代途径是鹰嘴豆,尤其是高Na积累者中鹰嘴豆应激反应的一个重要方面,尽管非线虫叶片线粒体中的这两种活动均具有很高的能力。强调鹰嘴豆。

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